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    <br/>
    <br/>
    <br/>第八章 肽展公式推导与元基编码进化计算以及它的应用发现
    <br/>
    <br/>AOPM-VECS-IDUQ Catalytic Initons PDE LAW and Its Application AOPM
    VECS IDUQ
    <br/>
    <br/>肽展公式推导与元基编码进化计算以及它的应用发现
    <br/>
    <br/>Yaoguang Luo罗瑶光
    <br/>

    <br/>9 Deta TVM PDC function optimization and PDE/德塔肽推导函数逻辑优化
    <br/>
    <br/>于是开始这些组合的有理合理性演化推理.
    //SORT 20201025 19:47 AM D8+ 继续持续绝对专注论证肽增公式 1. 0 BY USING ENGLISH
    FOR - 4 BITS DIUQ WAY 通过已有逻辑公式

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    <br/>THEN WE FIND? 于是我们推导发现了一些新的肽展变换定律 (PDE SWAP NEW LAW: D = DD)
    <br/>
    <br/>在如下公式中 符号解释 !-> 为反码, ~-> 为补码
    <br/>
    <br/>Proof !-> MASK, ~-> COMPS :
    <br/>
    <br/>V 感 知 -> U + Q !-> QU ~-> QQ !-> UU ~-> UQ = V
    <br/>
    <br/>E 执行 -> I + U !-> DQ ~-> DDD !-> III ~-> IIU = I + E (肽增/PDE
    INCREMENT)
    <br/>
    <br/>C 控制 -> I + D !-> DI ~-> DU !-> IQ ~-> UDD = U + D (肽展/PDE) = U +
    D + D (肽增/PDE INCREMENT)

    <br/>
    <br/>THEN WE FIND 我们发现 补码变换计算中间态生成两个公式 U = E, I = U
    <br/>
    <br/>V vitionary -> U + Q !-> QU ~-> QQ !-> UU ~-> UQ = V
    <br/>
    <br/>E execute -> I + U !-> DQ ~-> DDD !-> III ~-> IIU = I + E
    (肽增/PDINCREMENT)
    <br/>
    <br/>C control -> I + D !-> DI ~-> DU !-> IQ ~-> UDD = U + D (肽展/PDE)
    = U + D + D (肽增/PDE INCREMENT)

    <br/>
    <br/>THEN WE FIND two formulars in comp's duration: U = E, I = U
    <br/>
    <br/>第一种方法 饱和 4 元子肽展 /first way 4 bits proof
    <br/>
    <br/>A = V + S = U + Q + I + Q = UQIQ !-> QUDU ~-> QUDQ !-> UQIU ~->
    UQIQ = A
    <br/>
    <br/>O = E + S = I + U + I + Q = IUIQ !-> DQDU ~-> DQDQ !-> IUIU ~->
    IUIQ = O
    <br/>
    <br/>P = E + C = I + U + I + D = IUID !-> DQDI ~-> DQDU !-> IUIQ ~->
    IUIDD = P + D (肽增/PDE INCREMENT)
    <br/>
    <br/>M = C + S = I + D + I + Q = IDIQ !-> DIDU ~-> DIDQ !-> IDIU ~->
    IDIQ = M
    <br/>
    <br/>第二种方法不饱和 3 元子肽展 /second way 3 bits proof
    <br/>
    <br/>A = V + S = U + Q + I + Q = UQI !-> QUD ~-> QUI !-> UQD ~-> UQI =
    A
    <br/>
    <br/>O = E + S = I + U + I + Q = IUQ !-> DQU ~-> DQQ !-> IUU ~-> IUQ =
    O
    <br/>
    <br/>P = E + C = I + U + I + D = IUD !-> DQI ~-> DQU !-> IUQ ~-> IUDD
    = P + D (肽增/PDE INCREMENT)
    <br/>
    <br/>M = C + S = I + D + I + Q = IDQ !-> DIU ~-> DIQ !-> IDU ~-> IDQ =
    M
    <br/>
    <br/>结论, 看起来似乎是很好的方式 这里描述下为什么我会 4bit 计算, 因为一开始用 3bit
    也能很好的论证, 为了找到伪命题,
    我思考, VECS 如果进行增元倍增, 最好是倍数 4bit, 于是觉得有必要推导论证
    <br/>
    <br/>In conclusion, It proves 4bits discrete caculation is a better
    way. Then Author makes an arrangement as below.
    <br/>
    <br/>于是开始整理, 归纳为下面肽展公式.

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    <br/>Figure 11-1
    <br/>
    <br/>PDE MASK LAW/ 离散反码定理
    <br/>
    <br/>I= D!
    <br/>
    <br/>D= I!
    <br/>
    <br/>U= Q!
    <br/>
    <br/>Q= U!

    <br/>
    <br/>PDE COMP'S LAW/ 离散补码定理
    <br/>
    <br/>DD= ++Q
    <br/>
    <br/>I= ++D
    <br/>
    <br/>U= ++I
    <br/>
    <br/>Q= ++U

    <br/>
    <br/>PDE (肽减/PDE DECREMENT) LAW
    <br/>
    <br/>C= D ( 肽减/PDE DECREMENT)
    <br/>
    <br/>S= I ( 肽减/PDE DECREMENT)
    <br/>
    <br/>S= Q ( 肽减/PDE DECREMENT)

    <br/>
    <br/>PDE (肽增/PDE INCREMENT) LAW
    <br/>
    <br/>D= DD ( 肽增/PDE INCREMENT)
    <br/>
    <br/>U= E ( 肽增/PDE INCREMENT)
    <br/>
    <br/>I= U ( 肽增/PDE INCREMENT)
    <br/>
    <br/>E= I+ E ( 肽增/PDE INCREMENT)
    <br/>
    <br/>P= P+ D ( 肽增/PDE INCREMENT)
    <br/>
    <br/>C= U+ D+ D( 肽增/PDE INCREMENT)

    <br/>
    <br/>A= U+ Q+ I (不饱和／错误肽展/UNSAFE PDE); A= V+ S (肽展/PDE);
    <br/>
    <br/>O= I+ U+ Q (不饱和／错误肽展/UNSAFE PDE); O= E+ S (肽展/PDE);
    <br/>
    <br/>P= I+ U+ D (不饱和／错误肽展/UNSAFE PDE); P= E+ C (肽展/PDE);
    <br/>
    <br/>M= I+ D+ Q (不饱和／错误肽展/UNSAFE PDE); M= C+ S (肽展);
    <br/>
    <br/>E= I+ U (肽展/PDE);
    <br/>
    <br/>V= U+ Q (肽展/PDE);
    <br/>
    <br/>E= D+ U (肽展/PDE);
    <br/>
    <br/>C= I+ D (肽展/PDE);
    <br/>
    <br/>S= I+ Q (肽展/PDE);

    <br/>

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